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Detection of Dicrotic Notch in Arterial Pressure and Photoplethysmography Signals Using Iterative Envelope Mean Filter (Case No. 2024-034)
Summary: UCLA Researchers in the Department of Anesthesiology have developed an iterative envelope mean (IEM) method for the detection of specific features in arterial pressure monitoring applications. Background: The cardiac cycle consists of the distinct systolic and diastolic phases. The transition from the contracted, systolic phase to the...
Published: 4/8/2024
|
Inventor(s):
Maxime Cannesson
,
Ravi Pal
,
Akos Rudas
,
Jeffrey Chiang
,
Sungsoo Kim
Keywords(s):
arrhythmia
,
arterial blood pressure (ABP)
,
cardiac cycle
,
Cardiac Electrophysiology
,
Cardiac failure
,
Cardiac Magnetic Resonance Imaging
,
cardiometabolic disease
,
cardiopulmonary illness
,
Cardiovascular
,
Cardiovascular Disease
,
Cardiovascular Disease Nephropathy
,
cardiovascular modeling
,
cardiovascular prediction
,
cardiovascular therapeutic solution
,
diastolic
,
diastolic phase peak
,
dicrotic notch
,
feature extraction tool
,
iterative envelope method (IEM)
,
Medical Device
,
medical device cardiac monitoring
,
Medical Device Poly(Methyl Methacrylate)
,
Medical Devices and Materials
,
non-invasive cardiac monitoring
,
photoplethysmography (PPG)
,
Smart medical device
,
systolic
,
tachycardia
,
wearable medical device
,
wearable medical devices
Category(s):
Medical Devices
,
Medical Devices > Monitoring And Recording Systems
,
Platforms
,
Platforms > Diagnostic Platform Technologies
,
Software & Algorithms
,
Diagnostic Markers > Targets And Assays
,
Diagnostic Markers
Method for Determining the Time Constant for Oxygen Uptake Kinetics (UCLA Case No. 2022-253)
Summary: UCLA researchers in the Department of Medicine have developed a novel geometric model for the determination of the time constant in variable oxygen uptake kinetic systems. Background: The kinetic response of oxygen uptake adjustment to moderate-intensity exercise is a main factor of the aerobic function. Aerobic function is an indicator...
Published: 7/27/2023
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Inventor(s):
Christopher Cooper
Keywords(s):
breath-by-breath variability
,
Cardiovascular Disease
,
cardiovascular modeling
,
Exercise
,
exercise physiology
,
geometric method
,
kinetics
,
metabolic measurement
,
Oxygen
,
Oxygen kinetics
,
Oxygen Saturation
,
Oxygen uptake kinetics
,
single exercise protocol
,
time constant
Category(s):
Medical Devices > Monitoring And Recording Systems
,
Software & Algorithms > Digital Health